Kepware OPC communication Suite

KEPServerEX® is the multi-award winning OPC Server from Kepware Technologies and is the de-facto standard for industrial data communications for thousands of manufacturers and automation integrators across the world.

The latest release of Kepware's industrial connectivity platform is IoT-ready, with new features and enhancements that enable secure scalability across teams, operations, companies, and continents.

Since KEPServerEX® Version 5 first released in 2009, industrial connectivity has evolved into a critical layer in the solution stack—providing secure, reliable communications between the hardware layer and software application layer.

The release of KEPServerEX Version 6New addresses the industry's need to produce and analyze greater volumes, variety, and velocity of data to supply a wider, more diverse set of client applications in a secure manner.

With updates that enable remote configuration, support critical industrial automation markets in Asia and Europe, and simplify the user and licensing experience, KEPServerEX Version 6 provides the global connectivity, usability, and performance required by the enterprise.

Version 6 which has been specifically developed, over 2 yrs, to meet the requirements of the most demanding Enterprise applications.

For today’s manufacturers, communications of real-time data is critical — the ability to provide secure, reliable communications between the hardware, on the shop-floor, and business systems at the software application layer.

KepServerEX OPC UA Connectivity Suite & Tunneler

The OPC UA Client Driver, together with the free OPC UA Server for KEPServerEX, provides an ideal solution for securely tunneling OPC data across a local area network, a wide-area network, or even across the Internet.

The OPC UA Client Driver provides a communications tunnel between two or more computers, allowing data to be transferred securely and reliably. This eliminates reliance on Microsoft COM and DCOM technology, and provides higher performance and deterministic failure modes.